蛙神经肌肉接头处递质释放的钙依赖性和非钙依赖性成分。
Ca(2+)-dependent and -independent components of transmitter release at the frog neuromuscular junction.
作者信息
Tanabe N, Kijima H
机构信息
Daiichi Hoiku Junior College, Fukuoka, Japan.
出版信息
J Physiol. 1992 Sep;455:271-89. doi: 10.1113/jphysiol.1992.sp019301.
Abstract
- When a Ca2+ chelator, bis (O-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid (BAPTA), was loaded into the presynaptic nerve terminal of the frog neuromuscular junction (NMJ), facilitation, measured as an increase in endplate potential (EPP) amplitudes during a train of ten stimulations at 100 Hz, was greatly decreased within 20 min of BAPTA-AM (the acetoxymethyl ester of BAPTA) perfusion, and remained at a constant low level thereafter, suggesting that [Ca2+]i at the presynaptic nerve terminal was buffered by BAPTA. 2. Detailed examination of the two components of facilitation of EPP amplitude in the BAPTA-loaded NMJs showed that the fast component was lost almost completely, while the slow component was unaffected by loaded BAPTA. Augmentation and potentiation were also unaffected by BAPTA. 3. Under external Ca(2+)-free conditions (with 1 mM-EGTA), both augmentation and potentiation of miniature endplate potential (MEPP) frequency were clearly observed after tetanic stimulation in the normal NMJ, and were also unaffected by loaded BAPTA. 4. The above findings strongly support the residual Ca2+ hypothesis for the fast component of facilitation, and suggest that the three slower processes (the slow component of facilitation, augmentation and potentiation) occur independently of [Ca2+]i. This Ca2+ independence was supported by the fact that facilitation and potentiation have multiplicative effects on the amount of release. 5. The quantal content of the first EPP in the train remained unchanged throughout the time course of BAPTA loading for most NMJs. This suggests that [Ca2+]i immediately adjacent to Ca2+ channels at the active zone triggers transmitter release and is little affected by loaded BAPTA. 6. MEPP frequency was almost unchanged during BAPTA loading, suggesting that the basal [Ca2+]i remained unchanged close to the dissociation constant of BAPTA for Ca2+ (108 nM). 7. The slow component of facilitation had a multiplicative relationship with augmentation and potentiation, suggesting that the underlying mechanism for the slow component of facilitation differs from that for augmentation and potentiation.
摘要
- 当将钙离子螯合剂双(O-氨基苯氧基)乙烷-N,N,N',N'-四乙酸(BAPTA)注入青蛙神经肌肉接头(NMJ)的突触前神经末梢时,以100Hz的频率进行十次刺激的过程中,终板电位(EPP)幅度增加所测得的易化作用,在BAPTA-AM(BAPTA的乙酰氧基甲酯)灌注20分钟内大幅降低,此后保持在恒定的低水平,这表明突触前神经末梢的[Ca2+]i被BAPTA缓冲。2. 对加载BAPTA的NMJ中EPP幅度易化作用的两个成分进行详细检查发现,快速成分几乎完全丧失,而慢速成分不受加载的BAPTA影响。增强和强直后增强也不受BAPTA影响。3. 在无细胞外钙(含1mM乙二醇双四乙酸)的条件下,在正常NMJ中强直刺激后,微小终板电位(MEPP)频率的增强和强直后增强均清晰可见,且也不受加载的BAPTA影响。4. 上述发现有力地支持了易化作用快速成分的残余钙假说,并表明三个较慢的过程(易化作用的慢速成分、增强和强直后增强)独立于[Ca2+]i发生。易化作用和强直后增强对释放量具有相乘效应这一事实支持了这种与钙无关的现象。5. 对于大多数NMJ,在BAPTA加载的整个时间过程中,一串刺激中第一个EPP的量子含量保持不变。这表明活动区紧邻钙通道处的[Ca2+]i触发递质释放,且受加载的BAPTA影响很小。6. 在BAPTA加载过程中,MEPP频率几乎不变,这表明基础[Ca2+]i在接近BAPTA对Ca2+的解离常数(108 nM)时保持不变。7. 易化作用的慢速成分与增强和强直后增强具有相乘关系,这表明易化作用慢速成分的潜在机制与增强和强直后增强的机制不同。
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